#include <assert.h>
#include <stdio.h>

#include "binaryen-c.h"

// globals: address 4 is index
// decisions are at address 8+

int main() {
  BinaryenModuleRef module = BinaryenModuleCreate();

  // check()

  // if the end, halt
  BinaryenExpressionRef halter = BinaryenIf(
    module,
    BinaryenBinary(
      module,
      BinaryenGeUInt32(),
      BinaryenLoad(module,
                   4,
                   0,
                   0,
                   0,
                   BinaryenTypeInt32(),
                   BinaryenConst(module, BinaryenLiteralInt32(4))),
      BinaryenConst(module, BinaryenLiteralInt32(4 * 12)) // jumps of 4 bytes
      ),
    BinaryenUnreachable(module),
    NULL);
  // increment index
  BinaryenExpressionRef incer = BinaryenStore(
    module,
    4,
    0,
    0,
    BinaryenConst(module, BinaryenLiteralInt32(4)),
    BinaryenBinary(module,
                   BinaryenAddInt32(),
                   BinaryenLoad(module,
                                4,
                                0,
                                0,
                                0,
                                BinaryenTypeInt32(),
                                BinaryenConst(module, BinaryenLiteralInt32(4))),
                   BinaryenConst(module, BinaryenLiteralInt32(4))),
    BinaryenTypeInt32());

  // optionally, print the return value
  BinaryenExpressionRef args[] = {BinaryenBinary(
    module,
    BinaryenSubInt32(),
    BinaryenConst(module, BinaryenLiteralInt32(0)),
    BinaryenLoad(
      module,
      4,
      0,
      4,
      0,
      BinaryenTypeInt32(),
      BinaryenLoad(module,
                   4,
                   0,
                   0,
                   0,
                   BinaryenTypeInt32(),
                   BinaryenConst(module, BinaryenLiteralInt32(4)))))};
  BinaryenExpressionRef debugger;
  if (1)
    debugger = BinaryenCall(module, "print", args, 1, BinaryenTypeNone());
  else
    debugger = BinaryenNop(module);

  // return the decision. need to subtract 4 that we just added,
  // and add 8 since that's where we start, so overall offset 4
  BinaryenExpressionRef returner =
    BinaryenLoad(module,
                 4,
                 0,
                 4,
                 0,
                 BinaryenTypeInt32(),
                 BinaryenLoad(module,
                              4,
                              0,
                              0,
                              0,
                              BinaryenTypeInt32(),
                              BinaryenConst(module, BinaryenLiteralInt32(4))));
  BinaryenExpressionRef checkBodyList[] = {halter, incer, debugger, returner};
  BinaryenExpressionRef checkBody =
    BinaryenBlock(module,
                  NULL,
                  checkBodyList,
                  sizeof(checkBodyList) / sizeof(BinaryenExpressionRef),
                  BinaryenTypeInt32());
  BinaryenAddFunction(module,
                      "check",
                      BinaryenTypeNone(),
                      BinaryenTypeInt32(),
                      NULL,
                      0,
                      checkBody);

  // contents of main() begin here

  RelooperRef relooper = RelooperCreate(module);

  RelooperBlockRef b0;
  {
    BinaryenExpressionRef args[] = {
      BinaryenConst(module, BinaryenLiteralInt32(0))};
    BinaryenExpressionRef list[] = {
      BinaryenCall(module, "print", args, 1, BinaryenTypeNone()),
      BinaryenLocalSet(
        module,
        0,
        BinaryenCall(module, "check", NULL, 0, BinaryenTypeInt32()))};

    b0 = RelooperAddBlockWithSwitch(
      relooper,
      BinaryenBlock(module, NULL, list, 2, BinaryenTypeNone()),
      BinaryenBinary(module,
                     BinaryenRemUInt32(),
                     BinaryenLocalGet(module, 0, BinaryenTypeInt32()),
                     BinaryenConst(module, BinaryenLiteralInt32(1))));
  }

  RelooperBlockRef b1;
  {
    BinaryenExpressionRef args[] = {
      BinaryenConst(module, BinaryenLiteralInt32(1))};
    BinaryenExpressionRef list[] = {
      BinaryenCall(module, "print", args, 1, BinaryenTypeNone()),
      BinaryenLocalSet(
        module,
        0,
        BinaryenCall(module, "check", NULL, 0, BinaryenTypeInt32()))};

    b1 = RelooperAddBlock(
      relooper, BinaryenBlock(module, NULL, list, 2, BinaryenTypeNone()));
  }

  RelooperBlockRef b2;
  {
    BinaryenExpressionRef args[] = {
      BinaryenConst(module, BinaryenLiteralInt32(1))};
    BinaryenExpressionRef list[] = {
      BinaryenCall(module, "print", args, 1, BinaryenTypeNone()),
      BinaryenLocalSet(
        module,
        0,
        BinaryenCall(module, "check", NULL, 0, BinaryenTypeInt32()))};

    b2 = RelooperAddBlock(
      relooper, BinaryenBlock(module, NULL, list, 2, BinaryenTypeNone()));
  }

  RelooperBlockRef b3;
  {
    BinaryenExpressionRef args[] = {
      BinaryenConst(module, BinaryenLiteralInt32(2))};
    BinaryenExpressionRef list[] = {
      BinaryenCall(module, "print", args, 1, BinaryenTypeNone()),
      BinaryenLocalSet(
        module,
        0,
        BinaryenCall(module, "check", NULL, 0, BinaryenTypeInt32()))};

    b3 = RelooperAddBlock(
      relooper, BinaryenBlock(module, NULL, list, 2, BinaryenTypeNone()));
  }

  RelooperBlockRef b4;
  {
    BinaryenExpressionRef args[] = {
      BinaryenConst(module, BinaryenLiteralInt32(3))};
    BinaryenExpressionRef list[] = {
      BinaryenCall(module, "print", args, 1, BinaryenTypeNone()),
      BinaryenLocalSet(
        module,
        0,
        BinaryenCall(module, "check", NULL, 0, BinaryenTypeInt32()))};

    b4 = RelooperAddBlock(
      relooper, BinaryenBlock(module, NULL, list, 2, BinaryenTypeNone()));
  }

  // Separate branch for each.
  // In this testcase, two blocks out of 4 can be merged.
  {
    BinaryenIndex indexes[] = {1, 4, 9};
    RelooperAddBranchForSwitch(b0, b1, indexes, 3, NULL);
  }
  {
    BinaryenIndex indexes[] = {3, 6};
    RelooperAddBranchForSwitch(b0, b2, indexes, 2, NULL);
  }
  {
    BinaryenIndex indexes[] = {5};
    RelooperAddBranchForSwitch(b0, b3, indexes, 1, NULL);
  }
  RelooperAddBranchForSwitch(b0, b4, NULL, 0, NULL);

  BinaryenExpressionRef body = RelooperRenderAndDispose(relooper, b0, 1);

  // locals: state, free-for-label
  BinaryenType localTypes[] = {BinaryenTypeInt32(), BinaryenTypeInt32()};
  BinaryenFunctionRef theMain = BinaryenAddFunction(module,
                                                    "main",
                                                    BinaryenTypeNone(),
                                                    BinaryenTypeNone(),
                                                    localTypes,
                                                    2,
                                                    body);
  BinaryenSetStart(module, theMain);

  // import
  BinaryenAddFunctionImport(module,
                            "print",
                            "spectest",
                            "print",
                            BinaryenTypeInt32(),
                            BinaryenTypeNone());

  // memory
  BinaryenSetMemory(module, 1, 1, "mem", NULL, NULL, NULL, NULL, 0, 0);

  // optionally, optimize
  if (0)
    BinaryenModuleOptimize(module);

  assert(BinaryenModuleValidate(module));

  // write it out

  BinaryenModulePrint(module);

  BinaryenModuleDispose(module);

  return 0;
}
